Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0033036 (APC)
10,214 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Genetic alterations of several oncogenes and tumor suppressor genes are associated with human colorectal carcinogenesis. Especially in mutations, the K-ras, p53, APC and DCC gene frequently occurred, and these gene alterations seem to have important roles in colorectal carcinogenesis. We investigated 28 human colon cancer specimens obtained from surgery and five human colon cancer cell lines by PCR-SSCP assay, PCR-OSH assay, RT-PCR or sequencing method. Forty percent of cancers from surgical specimens had Ki-ras 2 (codon 12/13), p53 (Exon 5-8), APC (MCR) gene mutations, and fifty-seven percent of them had lower expression of DCC gene that of normal matched colon mucosa of the same patient. G to A transition was the most frequent in K-ras mutational spectrum in this case; 25% of patients had both k-ras and p53 gene point mutations. Form the results, we concluded that it in colorectal carcinogenesis for both K-ras and p53 gene point mutations might not necessary occur.
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PMID:[Genetic alterations of human colorectal cancer]. 810 90

We describe the spontaneous progression of a colon adenoma cell line to tumorigenicity and growth factor independence. This system allows direct comparison of biologic stages of malignant progression with alterations of colon cancer suppressor genes and oncogenes. VACO-235, a human colon adenoma cell line, is at early passages nontumorigenic in the nude mouse, unable to grow in soft agar, growth stimulated by serum and EGF, and growth inhibited by TGF-beta. VACO-235 daughter passages 93 and higher have in culture spontaneously progressed to being weakly tumorigenic, but retain all other growth characteristics of VACO-235 early passages. A mouse xenograft from late passage VACO-235 was reestablished in culture as the granddaughter cell line, VACO-411. VACO-411 is highly tumorigenic, clones in soft agar, and is unresponsive to serum, EGF, and TGF-beta. Early passage VACO-235 bears a mutant K-ras allele, bears only mutant APC alleles, expresses no DCC transcripts, and expresses only wild type p53 transcripts. VACO-411 retains the identical genotype, still expressing only wild type p53. Colonic cells after ras mutation, APC mutation, and DCC inactivation remain nontumorigenic and growth factor dependent. Malignant progression involves at least two additional steps, and in VACO-411 can proceed by a novel pathway not requiring p53 inactivation.
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PMID:A benign cultured colon adenoma bears three genetically altered colon cancer oncogenes, but progresses to tumorigenicity and transforming growth factor-beta independence without inactivating the p53 tumor suppressor gene. 813 40

Genetic and environmental aspects play an important role in the development of colorectal cancer. However, the common molecular alteration in both hereditary and sporadic colon cancer is localized in the APC gene. the APC gene maps in the long arm of chromosome 5 and was discovered in patients with familial adenomatous polyposis (FAP). The search for the APC gene led to the identification of restriction fragment length polymorphisms (RFLPs) in FAP patients. Using these RFLPs in relatives of FAP patients it is possible to make the presymptomatic and prenatal diagnosis. The FAP syndrome is an interesting model of carcinogenesis in vivo. Thus the different stages involved in the FAP syndrome which include hyperproliferative epithelium, adenoma, adenocarcinoma and metastases, have allowed the analysis of molecular alterations in oncogenes and tumor suppressor genes. The APC gene alteration if not inherited, occurs as the earliest molecular alteration in the development of colorectal cancer whereas structural alterations of the genes myc, ras, p53, MCC and DCC are considered to be late events. All these investigations have lead to 1) a better understanding of the ethiology of cancer and 2) early diagnosis of colorectal cancer in both the hereditary and sporadic forms of the disease.
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PMID:[Molecular genetics of colorectal cancer and carcinogenesis]. 813 31

The study of the genetic alterations of tumor suppressor genes and protooncogenes in solid tumors has greatly increased our understanding of cancer biology. These findings have extended epidemiologic associations of carcinogens with certain tumors. Further analysis of patterns of genetic changes may implicate carcinogenic substances in cases where epidemiology has not been able to do so. Identification of germline mutations in p53, APC, and NF1 has provided improved diagnosis and presymptomatic screening in cancer kindreds. The identification of additional alterations in tumor suppressor genes may further improve the ability to predict inherent cancer risk. Screening strategies based on detection of genetic abnormalities of preinvasive cancerous lesions, such as mutant ras in colonic polyps, may improve early diagnosis. Finally, strategies to replace lost tumor suppressor function may provide a future therapeutic modality.
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PMID:Genetic mechanisms of solid tumor oncogenesis. 814 Sep 69

The recent advances in molecular biology have led to a concept that carcinomas arise from the accumulation of a series of genetic alterations involving activation of protooncogenes and inactivation of tumor suppressor genes. The present study was designed to elucidate that such processes take place in the tumorigenesis of the uterine endometrium as well. The incidence of ras gene mutation, which were mostly composed of the point mutations of k-ras codons 12 and 13, was higher in carcinomas (31%) than atypical hyperplasias (15%), with marginal significance, but has not been associated with aggressiveness of the carcinomas. Thus, k-ras activations may occur as an early event in tumorigenesis. Mutations of tumor suppressor gene, p53, were detected in 24% of carcinomas and 8% of atypical hyperplasia, while they are not statistically different. The p53 mutations were associated with poorly differentiated adenocarcinomas. The most common pattern of the base change detected in endometrial carcinomas was the transition from G:C to A:T. The p53 mutations at CpG sites were frequent, especially at codon 248. Loss of heterozygosity (LOH) was more frequently detected than the mutations and most cases with LOH harbored the mutations, suggesting that allelic loss may precede the mutation in the tumorigenesis of endometrium. Expression of p53 was well correlated with type of the p53 mutation and its overexpression is associated with aggressive clinical behavior, suggesting the possible application of p53 as a prognostic indicator. The other tumor suppressor genes, Retinoblastoma gene (RB) and DCC gene, were also involved in the endometrial carcinogenesis. LOH and abnormal m-RNA of RB were detected in 15% and 33% of carcinomas, respectively, and associated with advanced clinical stage and poorly differentiated adenocarcinomas. LOH of DCC was also detected in some cases while that of APC was not detected. Thus, tumor suppressor genes may also play an important role as later events in carcinogenesis by inactivation mechanism consisting of the loss of one chromosomal allele and/or mutation of the gene in the remaining allele. Human papillomavirus (HPV) DNA type 16 was curiously detected in 5% of cases by both Southern blot and in situ hybridization analyses. Consequently, two third of endometrial carcinomas examined in the present study for ras, p53, RB, DCC, APC and HPV showed abnormality of at least one of these genes. The abnormality of multiple genes may contribute as an etiologic role to multisteps in carcinogenesis of the endometrium.
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PMID:[Genetic alterations and transformations in development and establishment of uterine endometrial carcinomas]. 837 Oct 6

The current model for colorectal tumorigenesis defines four specific mutations (activation of a ras proto-oncogene and inactivation of the APC, p53 and DCC tumor-suppressor genes) that accumulate in a colonic epithelial cell as it progresses towards a carcinoma. However, further mutations must be needed for progression to malignancy because advanced adenomas have been observed with all four of these mutations. Loss of heterozygosity (LOH) for 11 loci spanning the distal portion of the long arm of chromosome 14 was studied in 89 sporadic colorectal adenocarcinomas and 25 adenomas. The overall rate of LOH in carcinomas was 53% (46/86 informative carcinomas). The smallest region of overlap (SRO) of deletions includes the markers D14S19 to D14S20. No LOH was seen in the 18 informative adenomas examined. There was a significant trend towards higher levels of LOH within the SRO in advanced Dukes' stages (P = 0.016). Since frequent loss of heterozygosity in a specific region of a chromosome may reflect the inactivation of a tumor-suppressor gene located there, these data suggest that a gene involved in the progression of colonic neoplasia may reside on the distal portion of the long arm of chromosome 14, and that its inactivation may be a critical event in this process.
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PMID:Frequent loss of heterozygosity on chromosome 14 occurs in advanced colorectal carcinomas. 843 50

Two distinct gene classes have been implicated in colorectal carcinogenesis. Tumour promoter genes (oncogenes, dominant oncogenes) produce an excessive positive stimulus to cell proliferation. The ras family of oncogenes are an example. Acquired mutations of the c-k-ras gene are commonly found in colonic adenomas and carcinomas. Tumour suppressor genes (anti-oncogenes, recessive oncogenes) normally constrain or regulate cell proliferation. Loss of this function through gene deletion or mutation is oncogenic. Inherited tumour suppressor gene mutations have now been identified in several of the familial cancer syndromes. Acquired tumour suppressor gene mutations are found in both sporadic and hereditary cancers. Together with the tumour promoter genes they provide the genetic basis for the cellular changes occurring during carcinogenesis. The retinoblastoma gene was the first human tumour suppressor gene to be characterized and exemplifies the class. More recently, linkage studies in the hereditary cancer syndromes and the detection of specific deletions in sporadic tumours have helped to identify several new tumour suppressor genes. At least four of these (MCC, APC, p53 and DCC) apparently contribute to sporadic colorectal carcinogenesis. Germ line APC mutations produce the inherited colorectal cancer syndrome familial adenomatous polyposis (FAP). Detection of these mutations using linked markers has already found clinical application in the screening of families with this disease. In the future, genetic diagnosis of hereditary non-polyposis colorectal cancer (HNPCC) and the recognition of those genetically susceptible to sporadic colorectal cancer may become possible. At the same time, as our understanding of the genes involved improves, new avenues for treatment and prevention of colorectal cancer may emerge.
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PMID:Tumour suppressor genes and colorectal neoplasia. 847 56

The biology of colorectal cancer is discussed in terms of multistage carcinogenesis. Colorectal cancer evolves through the stepwise acquisition of mutations at certain critical genetic loci, many of which have been identified recently. The earliest step in the neoplastic pathway is a shift of proliferation from the normally restricted zone at the base of the colonic crypt and the retention of cells capable of proliferation at the top of the colonic crypt. This appears to be mediated by a mutation in the APC gene. The adenoma, a collection of benign neoplastic cells, is the first pathologically recognizable neoplastic lesion. Adenomas may grow or involute. Additional genetic lesions, such as a mutation in the Ki-ras gene, contribute to the growth and progressive dysplasia of the adenoma. Critical lesions in the p53 gene appear to be responsible for malignant transformation and the appearance of genetic instability of the neoplastic cell, which greatly increases the likelihood that additional genetic events will occur that contribute to a progressively more aggressive neoplastic phenotype. Genetic and phenotypic diversity develop within the primary malignant tumor, and metastasis occurs as a consequence of a complex series of events. Opportunities for detection and therapeutic intervention in colorectal neoplasia are discussed in this framework.
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PMID:The biology of colorectal cancer. Implications for pretreatment and follow-up management. 850 77

More than 70 cell lines were established from esophageal cancer, including 15 TE-series cell lines established by the authors. This article reviews molecular and cellular features of esophageal cancer cells from studies using these cell lines as well as primary tumors. The subjects reviewed include primary cultures of normal epithelium of the esophagus and of esophageal tumors, their growth and differentiation properties, chromosomal aberrations, protein kinase C, growth factors and their receptors, oncogenes, and tumor-suppressor genes. Lesions of genetic loci in esophageal cancer include the absence of mutations in ras genes in primary tumors, amplification and overexpression of the c-erbB gene, co-amplification of hst-1 and int-2 genes, mutations, and allelic loss of tumor suppressor genes, p53, Rb, APC, and MCC. Future clinical improvement will be achieved on the basis of the understanding of molecular and cellular features of esophageal cancer cells.
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PMID:Molecular and cellular features of esophageal cancer cells. 850 34

The predisposition to colon cancer is multigenetically controlled in animals and probably also in humans. We have analyzed the multigenic control of susceptibility to 1,2-dimethylhydrazine-induced colon tumors in mice by using a set of 20 homozygous CcS/Dem recombinant congenic strains, each of which contains a different random subset of approximately 12.5% of genes from the susceptible strain STS/A and 87.5% of genes from the relatively resistant strain BALB/cHeA. Some CcS/Dem strains received the alleles from the susceptible strain STS/A at one or more of the multiple colon tumor susceptibility loci and are susceptible, whereas others are resistant. Linkage analysis shows that these susceptibility genes are different from the mouse homologs of the genes known to be somatically mutated in human colon cancer (KRAS2, TP53, DCC, MCC, APC, MSH2, and probably also MLH1). Different subsets of genes control tumor numbers and size. Two colon cancer susceptibility genes, Scc1 and Scc2, map to mouse chromosome 2. The Scc1 locus has been mapped to a narrow region of 2.4 centimorgans (90% confidence interval).
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PMID:Fine mapping of colon tumor susceptibility (Scc) genes in the mouse, different from the genes known to be somatically mutated in colon cancer. 857 18


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